INSTALLATION AND PROGRAMMING GUIDE HARDWIRED CONTROL UNITS
9851, 9752, 9751 Hardwired Control Unit Installation and Programming Guide This document applies to control panels using software version 2.04.nnnn. © Cooper Security Ltd. 2004 Every effort has been made to ensure that the contents of this book are correct. However, neither the authors nor Cooper Security Limited accept any liability for loss or damage caused or alleged to be caused directly or indirectly by this book. The contents of this book are subject to change without notice.
Contents 1. INTRODUCTION.......................................................................................... 1 About this Manual...........................................................................................................................................1 Features of the Control Unit ...........................................................................................................................2 All Models ........................................................................
Contents Summary of Programming Commands ........................................................................................................48 Leaving Programming Mode ........................................................................................................................56 Performing an Engineer Reset .....................................................................................................................56 Re-entering Programming Mode ......................................
Contents 69: Forbikobler Door Locking .....................................................................................................................84 70: Level C Final Exit Operation.................................................................................................................84 71: Level C Entry Route Operation ............................................................................................................85 72: Level/Partition C Exit Mode .............................
Contents 161: Internal Sounder on Confirmed or Unconfirmed Alarm ....................................................................109 162: External Sounder on Confirmed or Unconfirmed Alarm...................................................................110 163: Confirmed Alarm during Entry ..........................................................................................................110 164: User Reset after Confirmed Alarm ...................................................................
Contents List of Figures Figure 1. Elements of an Intruder Alert System .............................................................................................5 Figure 2. 9930 Keypad ...................................................................................................................................6 Figure 3. 9751 Control Unit PCB Layout ......................................................................................................14 Figure 4. 9752 Control Unit PCB Layout ......
Contents Page vi 496964
1. INTRODUCTION About this Manual This manual is divided into five chapters: 1. Introduction: this describes the parts of an intruder alarm system (IAS) based on the 9x5x series of control units. 2. Technical description: this defines the operating parameters of the different parts of the system. 3. Installation: this explains the tasks involved in installing an IAS using the 9x5x series of control units. 4.
1. Introduction Features of the Control Unit All Models Control units in the 9x5x series provide: ° A four-wire bus connection for keypads, keyswitches, and hardwired and radio expanders. ° Internal sounder loudspeaker output with electronically generated Chime, Alarm, Fire and Entry/Exit tones (the volume of the Entry/Exit and Chime tones can be adjusted). ° Built-in communicator for reporting to an Alarm Receiving Centre (ARC).
1. Introduction 9751 The 9751 provides: ° On-board connections for eight Fully Supervised Loop (FSL) zones or eight Closed Circuit Loop (CCL) zones with a common tamper. ° Connections for three fully programmable panel outputs. Separate expander units enable a further 16 zones to be connected: a combination of wired and radio expanders can be used. 9752 The 9752 provides: ° Connections for eight Fully Supervised Loop (FSL) zones or eight Closed Circuit Loop (CCL) zones with a common tamper.
1. Introduction Elements of the IAS An IAS comprises a control unit in a shielded case, with one to four separate keypads and various detectors, transmitters and other devices connected to programmable zones. If required, a keyswitch can be connected to one of the keypads through a keyswitch interface. Each control unit has zone connectors on its printed circuit board (PCB).
1. Introduction 1. 725r EUR PA 2. 726r EUR PA 3. 715r EUR wirefree Passive Infra Red detectors 4. 9960 radio expander 5. 735r EUR universal transmitter 6. 719r EUR smoke detector 7. Keypads 8. Wired detectors 9. 9954 hardwired expander 10. Passive Infra Red detectors 11. Keypads 12. Door contacts 13. Keyswitch 14. Control unit 15. Fused mains spur Figure 1.
1. Introduction Keypad Figure 2. 9930 Keypad The 9930 keypad has a 16-character Liquid Crystal Display (LCD) that shows "first to alarm" information, level status and programming commands. In addition, there are three LEDs that have the following functions: a Glows steadily when mains power is present. Flashes when the system is working from battery backup. f Glows steadily when the system is unset if a telephone line fault is present.
1. Introduction If the Dual Key Alarm function is enabled (Command 87), users can trigger an alarm by pressing the following pairs of keys simultaneously: 1 + 3 Panic Alarm 4 + 6 Medical assistance 7 + 9 Fire alarm ScanProx Proximity Tag Reader The ScanProx 934EUR-50 proximity reader module enables you to convert 9930 keypads into proximity tag readers. The module fits onto connector pins on the keypad PCB, near the display module (Figure 11).
1. Introduction Radio Expanders Radio expanders enable you to connect wirefree devices to the control unit. They can work with the following devices: ° 715r. A Passive Infra-Red (PIR) movement detector with 15m standard range. This detector has a three-minute lockout time after detection, which lengthens battery life. ° 719r. A photoelectric smoke chamber type detector. ° 725r. A Remote Setting Device (also known as a "PA") that can be used to full set, part set or unset the system.
1. Introduction Partitioned or Single System During installation, the Installer can organise security levels A to D as a partitioned system or as a single system. In a partitioned system, users can set or unset each level independently of, or at the same time as, any of the others. The Installer can allocate each level its own set of zones and keypads, and an independent sounder output. User 01 can allocate any user to any level. In a single system, users can set only one level at a time.
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2. TECHNICAL DESCRIPTION Control Unit Specification General Environmental Operating temperature Humidity Dimensions Weight Grade 1 (975x) Grade 2 (9851) -10° to +55°C 96% RH 9751/9752: 235mm W, 245mm H, 90mm D 9752/9851: 300mm W, 390mm H, 95 D 9751/9752: 3.3 9752/9851: 5.0 kg Note: The 9752 uses a large case as standard but is available in a small case. Internal Clock ±10 minutes over one year (depending on the accuracy of the mains supply frequency).
2. Technical Description Standby battery (not supplied) 12V rechargeable lead-acid, gel-type battery. Low battery voltage cutoff = 10V. Recommended manufacturers: Yuassa, Yucel or Fiamm. A 17Ah battery can be fitted only in a large case. Note: 17Ah battery – max recharge time: 50 hrs, fitting kit: 8136EUR-02. Outputs 9751 OP 1, 2, 3 Open-collector transistor outputs, 500mA, 12VDC, negative applied. 9752 OP 1 and 2 OP3 Voltage-free, single-pole relay contacts, rated 24VDC @ 1A.
2. Technical Description Fuses The 9751 and 9752 use two fuses for overcurrent protection: F1 – 12V AUX output F-1A F2 – battery output F-2A The 9851 control unit uses fast-acting polyswitches on both outputs. All control units use a T-250mA mains fuse.
2. Technical Description 12V AUX F-1A 14 13 1 12 BATT F-2A 11 10 2 9 8 3 4 7 6 5 1. Outputs (RELAY OUTPUTS not used) 2. AUX power 3. Lid tamper switch 4. Zone connectors 5. Keypad and expander bus 6. Telephone line terminals for built-in communicator 7. Telephone line socket for built-in communicator 8. Plug-by (standalone) communicator connector 9. NVM Reset pins 10. Battery connector 11. Battery fuse 12. Kick Start pins 13. 21VAC from transformer 14. 12V AUX fuse Figure 3.
2. Technical Description 12V AUX F-1A 1 15 14 13 BATT F-2A 12 11 2 10 9 3 4 8 7 6 5 1. Outputs (OP1 and OP2 not used) 2. AUX power 3. Lid tamper connector 4. Zone connectors 5. Keypad and expander bus 6. Telephone line terminals for built-in communicator 7. Telephone line socket for built-in communicator 8. Local Downloader connector 9. Plug-by (standalone) communicator connector 10. NVM Reset pins 11. Battery connector 12. Battery fuse 13. Kick Start pins 14. 21VAC from transformer 15.
2. Technical Description 9 1. Lid tamper connector 2. Zone connectors 3. Keypad and expander bus 4. Outputs 5. AUX power 6. Kick Start pins 7. Battery connector 8. 21VAC from transformer 9. Telephone line socket for built-in communicator 16 10. Telephone line terminals for built-in communicator 11. Local Downloader connector 12. Plug-on communicator connector 13. Test pins (factory use only) 14. NVM Reset pins 15. Connector for printer (947UK-00) 16. Plug-on communicator connector 17.
2. Technical Description 9954 Hardwired Expander PCB Layout EOL FSL The 9954 hardwired expander provides connectors for eight CCL, FSL or EOL zones. Figure 6 shows the layout of the PCB. Four-wire CC Two-wire FSL Two-wire EOL 2 AT6 EOL AT5 CCT2 FSL 1 CCT1 AT1 CCT5 AT2 CCT6 CCT3 AT7 CCT4 AT8 AT3 CCT7 AT4 CCT8 2 3 4 6 5 3 0V 12V CLK DATA 1. Zone connectors 2. Lid tamper switch 3. Spare connectors (not connected) 4. Keypad bus 7 4 5. Address jumpers 6. Zone connectors 7.
2. Technical Description Radio Expander PCB Layouts The 9955, and its replacement the 9960, are Class VI radio expanders. Class VI is the grading given by the British standard for Wirefree Alarm Systems and is required for signalling systems that require a police response. They receive signals from the radio detectors on a frequency of 868.6625MHz. Both models are CE tested to EN 50081-1 and EN 50082-2. 9955 Radio Expander The 9955 radio expander supports eight wirefree zones.
2. Technical Description 9960 Radio Expander The 9960 radio expander supports eight or sixteen wirefree zones, depending on the model ordered. Figure 8 shows the layout of the PCB. 7 1 2 8 3 9 4 10 5 6 11 12 13 14 0V 12V CLK DATA 15 1. 2. 3. 4. 5. 6. 7. 8. Red "Fail" LED Green "Pass" LED Sounder 2 x 7-segment display Select button Delete button Built-in aerial Tamper switch 9. 10. 11. 12. 13. 14. 15.
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3. INSTALLATION Caution: Always remove mains power before opening the case lid. Do not work inside the control unit with mains power present. Overview A typical installation comprises the following main steps: 1. Survey the site and decide on positions for wired detectors, 9954 wired expanders, control unit, keypads, external and internal sounders. As part of the survey ask the users what facilities they need. 2.
3. Installation Cabling Keypads and Expanders Cooper Security recommends that you use 8-core 7/0.2 or 16/0.2 alarm cable for wiring keypads and expanders. You can connect the keypads and expanders in either a star or bus configuration (see Figure 9). If you intend to use long cable runs, Cooper Security recommends that you use star wiring with no more than 200m of cable per branch. Control Unit 200m 200m 200m 200m 200m Distribute devices along cable for better performance.
3. Installation When carrying out the cabling, there are two important points to remember: 1. Do not connect anything other than keypads and expanders to the keypad bus. The keypad bus power supply is limited to a maximum of 400mA and can supply no more than four keypads and four expanders. 2. Check between 0V and 12V on the keypad bus at the point furthest from the control unit: the voltage must be at least 12.0VDC when all the keypad backlights are on.
3. Installation 6. 7. Mount the front cover of the keypad (containing the keypad PCB) onto the backplate and make sure that the tamper switch operates. If the tamper switch does not operate, rotate the cam until the switch operates correctly with the front of the keypad mounted on the backplate. 2 1 1 2 4 2 3 2 1 1 1. Fixing hole 2. Cable entry 3. Adjustable cam 4. Remove these cable clips when fitting a 934 module Figure 10.
3. Installation Figure 12. Fitting a 934 Module (in position) 3. Secure the module in position with a screw through the lug in the topright corner (Figure 13). Figure 13. Securing lug on 934 module 4. Re-fit the front cover of the keypad.
3. Installation Wiring the Control Unit Cable Entries The control unit case back provides several cable entries. It is designed to stand away from the wall to leave space for the cables. Mains Connection Connect the control unit to a suitable supply using a double pole disconnect device in accordance with EN60950-1:2001 Clause 3.4.3. Connect the supply to the control unit using the 3-way terminal block located on the case back. Secure the cable to the case anchor point using the cable tie provided.
3. Installation Keypads Keypad Addressing The control unit is supplied with one keypad. If you have fitted more keypads, each one must be given a separate "address". Links LK2 to LK4 set the keypad address, as shown in Figure 15. Keypad 1 Address Keypad 2 2 2 2 3 3 3 4 4 4 Keypad 3 Keypad 4 2 2 3 3 4 4 ON BACKLIGHT ON BACKLIGHT ON BACKLIGHT Backlight ON Backlight OFF Figure 15.
3. Installation Connecting Entry/Exit Devices and External Sounders Figures 16 and 17 show the connections for keypads, Exit Terminate buttons, lock switches and internal/external sounders. Use the "ET" connector terminals on the keypad PCB to connect an Exit Terminate button or lock switch. If you are using a lock switch, do not connect any other devices to these terminals. Typical Internal Sounder Bell 16 Ohm Loudspeaker (2 Max.
3. Installation 9930 Keypad 0V 12V CLK DATA ET Exit terminate button OR Lockswitch (NO, push to make) (open when door locked, closed when door open) To other keypads Bell Strobe Typical SAB 4-core +ve -ve Bell -ve Hold Off -ve Tamper Return CLK DATA NO C 6-core See note 2k2 0V 12V NC NO C +ve Hold Off -ve Apply trig Note: Fit a 2k2 resistor for EOL tamper return, see Command 59. NC O/P3 O/P4 TR ST LS Typical Internal Sounder 16 Ohm Loudspeaker (2 Max.
3. Installation Connecting Detector Circuits The connectors for the detector circuits, or zones, are on the left hand edge of the main PCB in the control unit. The table below summarises the number and type of zones that can be connected to each model of control unit. Use Command 21 to configure the connectors to the required wiring type.
3. Installation FSL Connections The control unit provides enough connectors for 8 (975x) or 16 (9851) FSL zones. If you wish to connect more, you must fit one or more hardwired expanders (see "Connecting Expanders" on page 32). When using expanders with a 9851, you must decide how many FSL zones to connect to the control unit. You can have 8 zones on the control unit and 32 on expanders, or 16 zones on the control unit and 24 on expanders.
3. Installation EOL Connections (9851 only) Each EOL zone is a two-wire closed loop that uses a single 2K2 resistor fitted in series with the alarm contacts to differentiate between "Circuit" and "Tamper" signals. Figure 22 shows how to connect two EOL detectors to adjacent zones. Each detector is wired in series with a common anti-tamper circuit, which is connected to the terminals marked "3" and "4". You must connect a single 2K2 resistor in series with the anti-tamper circuit.
3. Installation EOL FSL Note: Make sure that the control unit and the expander use the same wiring method for zones. If you select a different wiring method for zones on the expander, the control unit may not report tampers correctly. Four-wire CC Two-wire FSL Two-wire EOL Figure 24. Link Positions to Select Wiring Method Once you have connected an expander, refer to the instructions supplied with it for connecting hardwired detectors or "learning" radio detectors as appropriate.
3. Installation Programming Outputs Control unit panel outputs can be programmed using the commands shown in the table below. The open collector outputs are of a "pull down" type that provides negative-applied control signals; the system adjusts the output polarity when you select the output type.
3. Installation Wiring a Keyswitch Interface Figure 27 shows the connections for a 9928 Keyswitch Interface. You can fit only one keyswitch interface in a system. 0V To keypad bus on control unit. Fixed 9928 Full 12V COM Off CLK KS2 Part DATA KS1 ET RDY Momentary Full PA SET Part TAMP M/C Momentar y M/C Continuous M/C Figure 27. Connecting a 9928 Keyswitch Interface Momentary or Fixed Keyswitches The 9928 can be connected to either a momentary or a latched keyswitch (see Figure 27).
3. Installation The communicator can be used for: • Transmitting alarm signals to alarm receiving equipment at a central monitoring station using Scancom Fast Format, Scancom SIA (Security Industry Association) or Contact ID (set with Command 103). • Connecting to a PC based at a remote engineering centre.
3. Installation Statutory Information Applications The built-in communicator is suitable for connection to the following types of networks: (a) Direct exchange lines (PSTN) supporting DTMF (tone) dialling. (b) PABX exchanges (with or without secondary proceed indication). Note: The built-in communicator is not suitable for connection as an extension to a pay-phone or to 1 + 1 carrier systems. Compatible PABXs The built-in communicator is only approved for use with compatible PABXs.
3. Installation Safety Notice Figures 28 and 29 identify connectors for Safety Extra-Low Voltage (SELV) and Telecommunications Network Voltage (TNV) circuits on the control unit's main PCB. These terms are used in accordance with the definitions in Safety Standard EN60 950. The Installer must ensure that TNV terminals are connected only to other circuits designated as TNV circuits (for example, the PTSN) and that SELV terminals are connected only to other circuits designated as SELV circuits.
3. Installation 1. Lid tamper connector (SELV) 2. Wire in comms connector (SELV) 3. Plug-by comms connector (SELV) 4. Main connector (SELV) 5. Plug-by comms connector (SELV) 6. Printer connector (SELV) 7. Local Downloader connector (SELV) 8. Telephone line connector (TNV) 9. RJ11 connector (TNV) 10. 21VAC from transformer (SELV) 11. Battery connector (SELV) Figure 29.
3. Installation Connecting the Telephone Line Connecting the telephone line directly to the terminals on the internal communicator, or indirectly through other apparatus, can produce hazardous conditions on the telephone network. Always seek advice from a competent telephone engineer if in any doubt about connecting to these terminals. Example – connecting a line in the UK: The internal communicator must be connected to the PABX system by: a) If the wiring is owned by British Telecom: British Telecom.
3. Installation Fitting a Plug-on Communicator (9851 only) The 9851 control unit can be fitted with a plug-on communicator. To fit it, follow the instructions below. Caution: Before fitting a plug-on communicator, you must power down the control unit completely, both mains and battery supplies. When reapplying power, connect the battery first. Failure to do so may damage the control unit. Remember to short the Kick Start pins when powering from a battery only.
3. Installation Fitting a Plug-by Communicator (all models) The control unit can be fitted with a communicator or speech dialler (for example, the Scantronic 8400, 8440, 660 or RedCare STU). To fit a communicator, follow the instructions below. Caution: Follow the instructions in the order shown, or you may damage the control unit and/or communicator. 1. Disconnect mains and battery power from the control unit and remove the case lid, if the system has already been installed. 2.
3. Installation Com Connector Cable, Part No.
3. Installation Fitting a Battery Fit a rechargeable battery into the back of the case. In the 9751, there is space in the case for a 12V 7Ah battery; make sure the battery terminals are oriented in the position shown in Figure 34. In the 9752 and 9851, there is space in the case for a 17Ah battery; if you prefer to use this, order the kit with part number 8136EUR-02. 7AH Figure 34.
3. Installation 4. 5. 6. Fit the case lid before applying mains power (this also defeats the tamper switch). Apply mains power. The power LED on the keypad glows steadily. Key in 0 followed by the factory default Engineer Code: 7890. (You do not have to remove the case lid.) The display shows: 7. Mult Syst? OFF Either: Press 1 Y to create a partitioned system Or press 0 Y to create a single system (see below). The display shows: Installer Mode You are now in programming mode.
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4. PROGRAMMING Entering Programming Mode "3. Installation – Initial Power Up" on page 44 describes how to enter programming mode for the first time in a new installation. To enter programming mode at any other time: 1. Make sure the system is unset. Note: If you have selected defaults for Finland, Norway, Sweden or Denmark (Command 0), you must enter a valid user code at this point. 2. Press 0, then key in the Engineer Code (default 7890). The display shows: You are now in programming mode.
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4. Programming Command 20 Change Engineer Code (page 68) nnnn = New Engineer Code (Code) gggg = New Guard Code (Guard) Note: The Guard Code is available only if enabled with Command 181.
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4. Programming Command 66 n= Forbikobler Partitions – partitioned system only (page 83) A Assign keypad to Partition A B Assign keypad to Partition B C Assign keypad to Partition C D Assign keypad to Partition D Key in: 66YnnnnY Command 74 This command has been replaced by Command 203. 75 Level/Partition C Exit Time (page 86) n= 1 2 3 4 5 6 Note: Each keypad can be assigned to any or all partitions. The default is for all keypads to belong to all partitions.
4. Programming Command Key in: 81 Output 1 Type (page 89) 81YnY n= Where n is one of: In a single or partitioned system: 00 Bell 01 EE Follow 02 Armed Lamp 03 Set Latch 04 Shock Sensor Reset 05 Walk Test 06 Ready Lamp 07 24-hour Alarm 08 Strobe 09 Smoke Sensor Reset 10 French Siren Test 11 Strobe Set (any partition) 12 Pulse Set 1 13 Pulse Unset 1 14 Alarm Confirmation 15 Set Complete 1 16 Unset Complete 1 17 System Bell Y Output 2 Type (page 89) n= See Command 81 for a list of options.
4. Programming Command 105 Static Test Call (page 95) N nn = A nn = B nn = C nn = D nn = 00 Static off Static call daily at nn hours, 01 to 24 Static call monthly on day nn, 01 to 28 Static call every nn hours, 01 to 24 Static call every nn days, 01 to 28 106 Line Fault Response (page 96) n= 0 Disabled 1 Audible 2 Silent Key in: 105Y N nnY Y 106YnY Y 107 This command is not used.
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4. Programming Command 180 Print Log – 9851 only (page 113) n= 0 Off 1 On 181 Enable Guard Code (page 113) n= 0 Off 1 On 182 Set Final Exit Settling Time (page 113) 07 7 seconds 08 8 seconds 09 9 seconds 10 10 seconds 11 11 seconds 12 12 seconds n= 183 Set Display Line 2 (page 113) n...n = Maximum 16 digits (press C/D to move right/left) 184 Key in: 180YnY Y Fast Format Channel 1 (page 115) nn = 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 182YnY Y 183Yn..
4. Programming Command 198 Fast Format Channel 8 (page 115) n= See Command 191 for a list of options. Default is 06 Technical Alarm 199 = 200 Key in: 198YnnY 199Y Forbikobler Entry Timer (page 116) 200YnY nYnYnY Y 1 2 3 4 201 Entry Timer 1 (page 116) n= 1 2 3 4 5 6 Entry Timer 1 Entry Timer 2 Entry Timer 3 Entry Timer 4 202 Entry Timer 2 (page 116) n= 1 2 3 4 5 6 Y Display Zone Circuit Resistance (page 133) Use the 1 and 3 keys to step through the circuits.
4. Programming Re-entering Programming Mode You can go back into programming mode whenever the system is unset and not in alarm: Note: If you have selected defaults for Finland, Norway, Sweden or Denmark (Command 0), you must enter a valid user code at this point. 1. Key in 0 followed by the Engineer Code (default 7890). The display shows: You are now in programming mode. Installer Mode Restoring the Access Codes (first stage reset) If the User and/or Engineer Codes are lost, then: 1.
4. Programming Restoring all Factory Default Programming If you wish to restore all factory default options then: 1. Enter programming mode (if you are not already there). 2. Key in 98 Y at the keypad. The display shows: 3. Load Default Press 1 Y at the keypad. The display shows (for example): 4. OFF Mult Sys? ON Either: Press 1 to create a partitioned system Or press 0 to create a single system (see page 45). The display shows (for example): 5. Mult Sys? Press Y.
4. Programming Adding and Deleting Tags You can use any industry-standard ISO tag or card with the 934 module. To purchase tags from Cooper Security, quote part number Proxtagpk5. A tag acts as an alternative to a user access code. You can assign a user a tag, an access code, or both. You cannot assign a tag to the Master User (User 01), the Engineer (User 00) or, if the Guard Code facility has been enabled using Command 181, the Guard (User 16).
4. Programming 3. Enter the access code of the user for whom you want to program a tag and press Y. The display shows the user number and any text description you have programmed for that user. 4. Press Y. The display shows the user number and an underscore, for example: 5. User 06 = ___ Present the proximity tag to the front of the keypad (see diagram above). The system learns the identity of the tag and links it to that user number.
4. Programming Programming Command Reference 0: Country PTT Defaults Use this command to select the country and PTT defaults; use Command 126 to select language. This Command also loads default access codes and programming options. Note: If you select options X4, X5, X6 or X7 (Finland, Norway, Sweden or Denmark), the control unit also changes the method of entering programming mode (see "Entering Programming Mode" on page 47).
4. Programming Enter letters from the keypad one at a time by repeatedly pressing a number key until the display shows the letter you want. Figure 36 shows which letters are assigned to each key. If you make a mistake, press C or D to move the cursor to the letter you want to change and key in the new letter. To delete a name completely, press D to move the cursor onto the first character of the name and then press D again to clear the old name. When you have finished entering the name, press Y.
4. Programming Value 02 03 04 05 06 07 Type Fire (FR) Description Smoke or heat detectors connected to FR type zones cause the speakers to give a distinctive fire signal (internal sounders pulsing "Dee Dah Dee Dah..."). Fire alarms always operate, whether the system is set or unset, and always trigger communications if fitted. Fire zones can be allocated to one or more partitions in a partitioned system (A–D attributes on page 67) but these attributes are not available in a single system.
4. Programming Value 08 Type Technical (TC) 09 Key Box (KB) 10 Smoke Detector (SD) 11/12 Keyswitch Page 64 Description Use this zone type when you want to monitor equipment, for example a freezer, without raising a full alarm. If a Technical Alarm zone is activated while the system is set, the system makes no audible alarm. However, when a user unsets the system, the keypad indicates a fault.
4. Programming Value 13 Type Anti-Mask Zone (AM) 14 Forbikobler (FB) Description Use this zone type for the outputs of detectors that have an Anti-Mask output facility; these have to be connected to two zones. Connect the detector's alarm and contact wiring to one zone and its Anti-Mask outputs to the zone above. Assign the Anti-Mask type to the higher of the two zones; that is, the one connected to the Anti-Mask outputs.
4. Programming Value X2 Attribute Soak Test (S) X3 Double Knock (D) X4 Omit Allowed (O) Page 66 Valid for Normal Alarm (NA) Entry Route (ER) 24-hour (24) Shock Analyser (SA) Description Use this zone attribute if you want to place on long-term test a detector that you suspect is giving false alarms. Zones with this attribute are disabled for 14 days after you return the control unit to user mode.
4. Programming Value X7 A B C D Attribute Valid for Description The meaning of this attribute depends on the zone type: Shock Shock You can set this attribute only for a Analyser Analyser zone of type SA, and only zones 1, 2, 3 Sensitivity (SA) and 4 support this type. To set the sensitivity of a shock sensor zone, enter a digit in the range 1 (least sensitive) to 6 (most sensitive). You must enter the whole sequence; for example, to set the sensitivity to 3, key in: X7 and then 3.
4. Programming Zones and Partitions In a partitioned system, you can assign some zone types to two or more partitions, and some zone types to one partition only.
4. Programming 21: Zone Configuration This Command allows you to select the wiring type of the zone connectors on the main PCB. 9751/2 0 Closed Circuit Loop four-wire (CC 4 wire) 1 Fully Supervised Loop (FSL 2K2/4K7) 9851 0 Closed Circuit Loop four-wire (CC 4 wire) 1 End of Line resistor (EOL 2K2) 2 Fully Supervised Loop (FSL 2K2/4K7) 3 Eight Fully Supervised Loop plus four expanders (FSL + EXP) You can connect more zones using expanders.
4. Programming 24: Show Control Unit Account Name An ARC can use Downloader to program an account name into the control unit. While the control unit is in programming mode, you can display the account name from the keypad. To do this key in 24Y. Press X to return to programming mode. 25: Internal Sounder Delay and Duration Option 0 of this Command makes the internal sounder use the external Bell Delay and Duration times. Option 1 makes the internal sounder continue after the external Bell Delay expires.
4. Programming 28: Hide Status Display If you select option 0, the keypad displays "Level Set" or "Partn. Set" for the whole time that the alarm system is set. Select option 1 to display "Level Set" for 180 seconds after the user sets the system, and then revert to the time and date display. Select option 2 to make the keypad display revert to the time and date 30 seconds after any event. 29: Entry Alarm Delay Time Note: Disable Alarm Confirmation (Command 89) to use this Command.
4. Programming 32: Keypads and Partitions If you created a partitioned system during initial power up, this Command enables you to assign the Entry/Exit tones, alarm tones and status displays for one or more partitions to individual keypads. To assign each keypad: 1. Make sure you are in programming mode. 2. Key in 32 and press Y. The display shows: 3. 32:Keypd 1 abcd Press A, B, C or D to assign keypad 1 to the desired partition or partitions. For example, if you select A only, the display shows: 4.
4. Programming 35: First Circuit Lockout If you select option 0 (Lockout), the first zone to activate during the set cycle is ignored until the system is unset. If you select option 1 (Rearm), the whole system (including the first zone to activate) rearms at the end of the programmed bell run time, provided that the zone is closed. While the zone is open, the system locks it out. If the zone closes after the system rearms, the system reinstates it.
4. Programming 39: Level/Partition A Exit Mode Use this Command to select the exit mode for Full Set or Partition A. Option 0 Timed. Use this option if the system sets after an exit time selected using Command 44. If an Exit Terminate button is fitted, the user may use it to shorten the exit time. 1 Terminated. Use this option if the user completes setting the system by pushing an Exit Terminate button connected to a keypad. The exit time is infinite in this option.
4. Programming To unset the system, the user turns the lock switch to "unlocked" (which closes the lock switch contacts). The keypads start to emit a continuous tone. At this point, the user can lock the lock switch again without causing an alarm. When the user opens the Final Exit zone, the control unit starts the entry timer. The user completes entry by unsetting the system in the normal way. When the user unlocks the lock switch, the control unit disables Alarm Confirmation.
4. Programming 41: Bell Delay When the system is set and (for example) an intruder violates a zone, the system waits for the programmed Bell Delay before operating the external sounder for the programmed Bell Duration. This Command sets the Bell Delay. Option 0 No delay (default) 1 1.
4. Programming 44: Level/Partition A Exit Time This Command lets you set the Exit Time for Full Set or Partition A. Option 1 10 seconds 2 20 seconds (default) 3 30 seconds 4 45 seconds 5 60 seconds 6 120 seconds 45: Entry/Exit Tone Volume In a single system, this Command sets the volume of the Entry/Exit tone from the internal sounder. If you select option 0, the internal sounder emits no tone. Select a value from 1 (quietest) to 9 (loudest) to set Entry/Exit tone volume.
4. Programming 48: Lockout Keypads During Entry This Command provides compliance with DD243: 2002 6.4.5. If you want the user to be able to unset the system using a proximity reader, the keypads must be locked out during entry. If you select option 0, the system permits all users to use all keypads during entry. If you select option 1, the system locks all users out from all keypads during entry.
4. Programming 51: Set Time and Date The system has an internal clock/calendar, which it uses to date stamp the log print-out. To set the system's clock/calendar to the correct time and date: 1. Enter programming mode (if you are not already there). 2. Key in 51Y at the keypad. The display shows the current date, for example: 3. 4. 5. D11 M09 Y01 Key in two digits for the day (01–31) and press Y. Use a leading zero for the first nine days of the month.
4. Programming 54: BVVO Supervision (not 9751) If the alarm system must meet BVVO radio supervision requirements, select option 1. In this mode: If a detector is out of contact for more than 15 minutes, the control unit shows a warning on the keypad display when a user tries to set the system.
4. Programming 59: External Sounder Tamper This Command specifies which one of two tamper arrangements is used to connect the control unit to the external sounders. Option 0 Tamper return uses negative voltage 1 Tamper return is terminated with a 2k2 resistance. Select the appropriate option for the sounder fitted to the system. 60: Level B Final Exit Operation In a single system, this Command specifies how the system treats Final Exit zones during part set B.
4. Programming In a partitioned system, the options are: Option 0 Timed. Use this option if Partition B sets after an exit time selected using Command 65. If an Exit Terminate button is fitted, the user may use it to shorten the exit time. 1 Terminate. Use this option if the user completes setting the partition by pushing an Exit Terminate button connected to a keypad. The exit time is infinite in this option. 2 Final Door Set.
4. Programming 65: Level/Partition B Exit Time This Command sets the Exit Time for Level or Partition B. Option 1 10 seconds 2 20 seconds (default) 3 30 seconds 4 45 seconds 5 60 seconds 6 120 seconds 66: Forbikobler Partitions If you created a partitioned system during initial power up, this Command enables you to assign Forbikobler keypads to one or more partitions. To assign each keypad: 1. Make sure you are in programming mode. 2. Key in 66 and press Y. The display shows: 3.
4. Programming 68: Forbikobler Door Timer This Command sets the time that the Forbikobler system allows for entry to the building (not the time needed to unset the system). During this period, an optional output is activated to operate an electromechanical lock on the door.
4. Programming 71: Level C Entry Route Operation In a single system, this Command specifies how the system treats Entry Route zones during part set C. If you select option 0, any Entry Route zones included in Level C continue to act as Entry Routes during part set C. If you select option 1, these zones act as Final Exit zones during part set C. Note: This Command is not available in a partitioned system. 72: Level/Partition C Exit Mode This Command sets the Exit Mode for Level or Partition C.
4. Programming 73: Level/Partition C Alarm Response This Command sets the Alarm Response for Level or Partition C. In a single system, the options are: Option 0 Keypad sounders only. 1 Internal sounders and keypad sounders. 2 Local alarm (internal and external sounder only). 3 Full alarm (communication and internal/external sounders). In a partitioned system, the options are: Option 0 Keypad sounders only. 1 Local alarm (internal and external sounder only).
4. Programming 76: Level/Partition D Exit Mode This Command sets the Exit Mode for Level or Partition D. In a single system, the options are: Option 0 The keypad sounders and any internal sounders give a low tone during exit of Level D. Use Command 79 to select the exit time. 1 Instant Set (no exit tone) 2 Silent Set. Use Command 79 to program the Exit time. At the end of the exit time the keypad gives a double "beep" confirmation tone. 3 Makes the Level D exit mode the same as Level A.
4. Programming 77: Level/Partition D Alarm Response This Command sets the Alarm Response for Level or Partition D. In a single system, the options are: Option 0 Keypad sounders only. 1 Internal sounders and keypad sounders. 2 Local alarm (internal and external sounder only). 3 Full alarm (communication and internal/external sounders). In a partitioned system, the options are: Option 0 Keypad sounders only. 1 Local alarm (internal and external sounder only).
4. Programming 80: Forbikobler Chime This Command links the bell push on the Forbikobler keypad to the Chime on the system, so that pressing the bell operates the sounders. Option 0 1 Off. Pressing the bell push does not operate the sounders (default). On. Pressing the bell push operates the sounders. Note: This is not available in a partitioned system. 81 to 84: Output n Type Note: Command 84 applies only to the 9851, as only it has a fourth output.
4. Programming 05 Walk Test: active during both engineer and user Walk Tests and during the time between silencing and resetting the system. It is used on movement detectors that are able to switch off the Walk Test LED in any state other than a Walk Test. 06 Ready Lamp: active when the system is unset and if there are no faults. It is inactive when the system is full or part set, during any alarm or if a circuit fault prevents setting. It is also active when the control unit is in programming mode.
4. Programming 24 Strobe Set C: active for 10 seconds after Partition C is set. 25 Strobe Set D: active for 10 seconds after Partition D is set. 26 Pulse Set 1: active for time set by Command 170. 27 Pulse Set 2: active for time set by Command 170. 28 Pulse Set 3: active for time set by Command 170. 29 Pulse Set 4: active for time set by Command 170. 30 Pulse Unset 1: active for time set by Command 172. 31 Pulse Unset 2: active for time set by Command 172.
4. Programming 87: Keypad Dual Key Alarms This Command enables users to raise an alarm by pressing two keys on the keypad at the same time. When this facility is enabled (option 1), the alarms available are: Alarm type PA Medical Fire Key combination 1 and 3 4 and 6 7 and 9 Select option 0 to disable this Command. Note: This Command also enables a PA from keyswitches. For more information, see the "9928 Installation Guide". 88: Not used This command is not used.
4. Programming 98: Load Full Defaults Use this Command to load default values for all Commands. 1. Enter programming mode (if you are not already there). 2. Key in 98 Y at the keypad. The display shows: 3. Load Default Press 1 Y at the keypad. The display shows (for example): 4. OFF Mult Sys? ON Either: Press 1 to create a partitioned system Or press 0 to create a single system. The display shows (for example): 5. Mult Sys? Press Y.
4. Programming 101: Call Mode You may select one of the following call modes: Option 0 Disabled. The control unit does not use any communications. 1 Single reporting. The control unit reports to one programmed telephone number (see Command 115) with one account number (see Command 117). Operation: The communicator dials the number and tries to connect with the ARC. If it fails, it closes down and then tries again. It will try to connect up to 15 times. 2 Alternate reporting.
4. Programming 103: Reporting Type The system supports several message formats for communications: Option 0 Scancom Fast Format (FF) 1 Contact ID (CID) 2 Scancom SIA Level I (SIAI) 3 Scancom SIA Level II (SIAII) – this does not send time and date 4 Scancom SIA Level 3 (SIA3) 5 Extended Scancom SIA Level 3 (XSIA3) 6 Home "beep" (Home) Option 6 is not a particular message format. What it means is that the communicator dials a number and sends a "beep" down the line.
4. Programming To make static test call at regular intervals, you have two options: Cnn To make a static test call every nn hours, press C and then key in a number between 01 and 24 to select the interval in hours. For example, key in 12 to program the control unit to make a call every 12 hours. Dnn To make a static test call every nn days, press D and then key in a number between 01 and 28 to select the interval in days. For example, key in 07 to program the control unit to make a call every 7 days.
4. Programming 108: Dynamic Test Call With dynamic testing, the control unit makes a test call 24 hours after the last communication, rather than at the fixed times or intervals specified for static calls with Command 105 (page 95). Select option 0 to disable dynamic test calls and option 1 to enable dynamic test calls. Note: Cooper Security recommends that you select either Static Test Call (105) or Dynamic Test Call (108), but not both at the same time.
4. Programming 111: Modem Speed (9851 only) Use this command to set the speed of the modem inside the 9851 (built-in communicator). Option 0 Automatic baud selection: tries to connect at 1200 baud; if that fails, connects at 300 baud. 1 300 baud (default) 112: Rings to Answer Use this command to set the number of rings for which the system waits before answering an incoming call from the remote PC.
4. Programming 114: Access Mode You may wish to impose extra security on communication between a remote PC and the control unit as, once the PC is connected, Downloader has access to all programming Commands. Select option 0 to require the user to initiate communication with the remote PC. Select option 1 to accept remote calls but check the details sent by the Downloader software. Select option 2 if you do not require extra security. Option 0 Callback off (Attended).
4. Programming To enter a telephone number: 1. Enter programming mode (if you are not already there). 2. Key in 115 (or 116) Y at the keypad. The display shows (for example): 3. 4. Press Y. Key in the digits of the number. If necessary, press D to move the cursor to the left to edit or delete the number. Press C to move the cursor to the right. The display shows (for example): 5. 115:Tel No 1_ 115: 1234_ Press Y. The keypad gives a double "beep" and the system stores the number.
4. Programming 118 and 119: Downloader Telephone Numbers Use these Commands to program the telephone numbers that the communicator will use to call the Downloader software on a remote PC (as described in the "9x5x User Guide"). When a connection is made between the control unit and the remote PC, the Downloader operator selects which of the two numbers the control unit should use to call back (for example, home or office), provided that Secure Callback is enabled with Command 114.
4. Programming 122: Communication Acknowledge This Command is available only if Country is set to Ireland (Command 0, option X1). In addition, option 1 is effective only if Scancom Fast Format is selected (Command 103, option 0). To enable Communication Acknowledge, select option 1. In this mode, when the communicator has called the ARC and received an acknowledgement, the keypad displays the message "Call your CS" and emits a "beep" for 10 seconds when the system is unset or disarmed.
4. Programming 126: Select Language The control unit can display messages on the keypads in several languages. Select option for the language you wish to use: 0: English (default) 1: Italian 2: Espanol (Spanish) 3: Port (Portuguese) 4: Nederl (Dutch) 5: Francai (French) 6: Deutsch (German) 7: (NO) (Norwegian) 8: (SV) (Swedish) 9: (DK) (Danish) X1: (SF) (Finnish) Note: This overrides the default language loaded when the Country is selected with Command 0. 127: Not used This command is not used.
4. Programming 129: Telecommand Requires Entry for Unset If the system is fitted with a radio expander, the user can use a telecommand (remote setting device) to set and unset the system. This Command provides two options for unsetting the system with a telecommand: Option 0 The user must first trigger the entry zone and start the entry timer before unsetting the system with a telecommand.
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4. Programming Notes: 1. If Command 143, option 1 is selected, all messages with a CID Code are sent. If option 0 is selected, the restores marked with ‡ are not sent. 2. The control unit logs an Anti-Mask event to the zone number one below that assigned the Anti-Mask type. See page 62 for an explanation of the Anti-Mask zone type. 132: Send Tampers as Burglary Some ARCs experience problems if a control unit sends "restore" messages using SIA, wrongly interpreting them as "user restores".
4. Programming 144 to 150: Not used These commands are not used. 151 to 158: Plug-by Communicator Outputs The main circuit board of the control unit provides eight programmable outputs that can be used to control a plug-by communicator. The outputs can be connected to the communicator by an twelve-way wiring harness provided with the control unit. See "3. Installation – Fitting a Plug-by Communicator" for details of the wiring harness.
4. Programming Note: 1. If the control unit is using Fast Format signalling, and has sent a Burg to the ARC, the control unit activates the output pin assigned to Comms Acknowledge when the ARC returns a Comms Acknowledge signal. 2. The control unit delays reporting/logging either mains loss, or exiting engineering with mains loss, by 15-18 min (chosen at random). If you select a Scandinavian default in Command 0, the control unit waits at least 60 minutes before reporting.
4. Programming 162: External Sounder on Confirmed or Unconfirmed Alarm Note: Enable Alarm Confirmation (Command 89) to access this Command. This Command selects whether the control unit will operate the external sounder for a confirmed alarm or for an unconfirmed alarm. Option 0 Control unit operates the external sounder for an unconfirmed alarm. 1 Control unit operates the external sounder for a confirmed alarm.
4. Programming Option 0 User/Engineer. The user can reset the system after a first alarm but an engineer is required to reset the system after a confirmed alarm. 1 User/User. The user can reset the system after both types of alarm. 2 Engineer/Engineer. An engineer is required to reset the system after both types of alarm. Note: DD243:2002 states that the user can reset the system if any of the unsetting methods mentioned in sections 6.4.2, 6.4.3 or 6.4.6 are used.
4. Programming Notes: 1. Generating a pulse on an output depends both on a set or unset pulse being defined for the output and on the output being associated with a partition that is being armed or disarmed. 2. Commands 174 (Fire) and 175 (PA) activate only the Pulse Unset outputs configured with Command 172. Example 1 In a single system, panel output 3 is to be programmed as type 12 (Pulse Set 1). It will be used to operate a locking mechanism when the whole system is set.
4. Programming 180: Print Log (9851 only) This Command instructs the control unit to print the event log through the serial port on the main PCB. Selecting option 1 causes events to be printed as they occur until the mode is cancelled by selecting option 0. To print the log during testing, use Command 90, options 0 and 7. Option 0 Off. Do not print the event log. 1 On. Print the event log.
4. Programming 185: Keyswitch Auto Reset This Command instructs the control unit to reset a tripped keyswitch zone automatically if the user uses the keyswitch to set the system on leaving. Option 0 Off. User must reset tripped zones manually. 1 On. System resets a tripped zone of type KM or KF automatically when the user sets the system with the keyswitch.
4. Programming 191 to 198: Fast Format Channels If Fast Format reporting is selected (Command 103, option 0) Commands 191 to 198 allow you to assign one of the following events to each output. Command 191 controls output 1, 192 output 2, and so on up to Command 198 which controls output 8.
4. Programming 200: Forbikobler Entry Timer This Command sets the interval between a user entering the premises through a Forbikobler entrance and an alarm going off, using one of the independent entry timers configured with Commands 201 to 204. Any of the entry timers can be assigned to any Forbikobler entrance. Entering the entry code into the Forbikobler unit starts the selected entry timer.
4. Programming Setting Different Entry Timers for Different Entrances Suppose that you have installed a system on a site that can be entered through a front door or through an integral garage with an internal door: ° When a user opens the front door, it may take only 20 seconds to step inside and enter an access code at a keypad in the lobby.
4. Programming Using a Partitioned System Introduction When programming a control unit, there are two ways of changing from a single system to a partitioned system: a) during initial power up b) using Command 98. To create a partitioned system during initial power up, see page 45. If you have an existing control unit that has already been programmed as a single system and wish to convert it to a partitioned system, then: 1. Enter programming mode (if you are not already there). 2.
4. Programming Programming Partitions Once you have selected a partitioned system, you can use the following Commands to program each partition: 1. Use Commands 01 to 16 and X17 to X40 to assign each zone to a partition. Each zone defaults to Partition A. Press A to assign zones to Partition A. Press B to assign zones to Partition B. Press C to assign zones to Partition C. Press D to assign zones to Partition D. (See also "Setting Up A Common Area" on page 121.) 2.
4. Programming Differences in Commands for Partitioned Systems When you are using a partitioned system, some Commands offer new options and others can no longer be used. The table below summarises the programming differences between partitioned and single systems. Command 01-40 Zone Programming 28 Hide Status Display 32 Keypads and Partitions 39 Level/Partition A Exit Mode Partitioned system A to D = Partitions "Partn.
4. Programming Common Areas Setting up a Common Area You can create a common area linked to two or more partitions. The system sets the common area when the users have set all the linked partitions. When users enter the common area using the appropriate access code, the system unsets it and any partition selected by the user. The remaining partitions stay set. The following sections show examples of how to use common areas. Example 1.
4. Programming To see how this works, start with what happens at the end of a working day when all the users leave the building. User A happens to leave first, and sets Partition A from the keypad in Office A. The control unit completes setting Partition A when the user closes zone 2. A few moments later, users B and C set their partitions. The control unit completes setting Partitions B and C when the users close zones 3 and 4 respectively. Finally, user D sets Partition D from the keypad in Office D.
4. Programming Office A Partition A Z4 Office B Partition B KPD KPD Z2 Z3 Lobby Common Area Z1 Figure 38. Using a Private Door Partition A has a separate exit guarded by a Final Exit zone (zone 4). Partition B is set. User A starts setting at their keypad and then leaves by their private door on zone 4. The control unit is expecting to see zone 1 close in order to complete setting Partition A and the common area.
4. Programming Example 2. Double Common Area You are not limited to having one common area. Figure 40 shows three partitions sharing two common areas. Common Area 2 KPD KPD Partition B Partition A KPD Partition C Common Area 1 Figure 40. Using two Common Areas The control unit sets Common Area 1 when users set Partitions A and B. The control unit sets Common Area 2 when users set Partitions B and C. Example 3.
4. Programming Partition D remains set during the day. Partitions A, B and C are unset, so the control unit leaves the common area unset. When users A, B and C leave at the end of the day the control unit sees that all partitions are set and sets the common area. When the cleaners arrive in the evening, they open zone 1 and the control unit starts the entry timer. The cleaners unset Partition D and the control unit unsets the common area but leaves Partitions A, B and C set.
4. Programming ACPO DD243: 2002 Compliance Applicability Please study this section if all of the following apply: 1. You are installing an IAS in England, Wales or Northern Ireland. 2. The system has remote signalling and requires the local Police Authority to issue a URN (Unique Reference Number). 3. You have chosen to use "Sequential Alarm Confirmation" to comply with DD243: 2002.
4. Programming The table below summarises which options to select on various Commands in order to comply with paragraphs 6.4.2 to 6.4.6. DD243: 2002 Para: Possible Installation Command 89 160 48 163 164 Alarm Confirmation Confirmation Time Lockout Keypads During Entry Confirmation on Entry User Reset After Confirmation 6.4.2 Unset from outside using a keyswitch zone input No (Option 0) Never (Option 0) Enabled (Option 1) 6.4.3 Exit Mode of "Lock Set" 6.4.
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5. TESTING 90: Reading the Event Log The control unit keeps a log of recent events. The log can contain up to 250 events. Each event is described by a short text message. To review the event log, make sure the system is in programming mode and then: 1. Key in 90Y. The display shows the most recent event in the log. 2. Key in 1 to show earlier events or 3 to show later events. 3. Key in 4 to show the first event or 6 to show the last event. 4. Press Y to toggle between the event message and the event time.
5. Testing To print a listing of the control unit's configuration, key in 90 8 Y. Note: 975x models do not have the connector required for event log printing. Event Log Messages * Printed event messages start with a time and date stamp.
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5. Testing Keypad Display Telecmmd PA Test Call Test Call Unn Change Unn Printed (9851 only)* Telecmd Panic Man Trig Test Periodic Test USER Changed USER Unn Delete Unn USER Deleted USER Unn Off-Site Unn On-Site Bypass Supr. Znn Unn System Reset Unn Ptn a Reset Unn a Set Unn a UnSet Unn System Unset Unn Time/Date Unn Znn Omit Unn Znn Unomit Unn Dload Fail Unn Remote Dload Fnn Missing Fnn Restore Fnn Tamper Tamper Fnn Rst Forbi I/F Tamper Frb I/F Tamp Rst Forbi Lp Tamper Frb Lp Tamp Rst USER Prog.
5. Testing 97: Engineer Walk Test This function enables the engineer to test all devices on the system. 1. Enter programming mode. 2. Key in 97 Y The display shows: 97: Walk Test 3. Open and close each alarm and tamper contact in turn. The system gives a Chime tone each time you open and close a detector contact. The display shows: "A:Zone:" and the zone number of every detector you have tested, in sequence and for one second each.
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Index 24-hour Alarm ............................................................. 90 9751 PCB layout ......................................................... 14 9752 PCB layout ......................................................... 15 9851 PCB layout ......................................................... 16 9954 PCB layout ......................................................... 17 9955 PCB layout ......................................................... 18 9960 PCB layout ..........................
Index Dual reporting..............................................................94 Duration bell .........................................................................76 Duress Code .......................................................2, 9, 47 Dynamic test................................................................97 End of Line (EOL) resistor loop ...............................7, 69 connections............................................................32 Engineer code .........................
Index exit time ................................................................. 88 Line line fault input ........................................................ 12 monitoring.............................................................. 36 response to faults on line....................................... 96 Load battery load test ..................................................... 80 default values for all commands ............................ 93 Lock switch connecting .................................
Index defaults ..................................................................58 report restores......................................................102 Reverse Open/Closed ...............................................102 Ringer Equivalence Number........................................37 Rings to answer...........................................................98 Scancom Fast Format ...........................see Fast Format ScanProx 934...........................
Declaration of Conformance Cooper Security Ltd issues this certificate to certify that the equipment known as: 9751/9752/9851 Complies with the following directive: 1995/5/EC R&TTE Directive Signed Stewart Taylor, Technical Director Date: 4 September 2002 Cooper Security Ltd. Security House Vantage Point Business Village Mitcheldean Gloucestershire GL17 0SZ www.scantronic.co.uk Product Support (UK) Tel: (09068) 616343. Available between: 08:15 and 17:00 Monday to Thursday, 08:15 and 12:45 Friday.
